Abstract

Identification and quantification of excipient related degradation products in the liposomal formulation is important, as they may impact the safety and efficacy of the drug. Phospholipids are one of the major excipients in liposome drugs composing the lipid bilayer, and they are vulnerable to oxidation and hydrolysis reactions. Since phospholipids with saturated fatty acid chain were preferred in most of liposome drug products, the major degradation pathway of phospholipids in liposome formulations are limited to hydrolysis of phospholipids into free fatty acids and lysophospholipids. These hydrolyzed degradation products may form during manufacturing and/or long-term storage of liposomal formulations. Herein, we report development and application of accurate and sensitive methods that can be utilized for the quantitation of saturated free fatty acids (FFA 18:0 and FFA 16:0), lysophosphocholines (LPC 18:0 and LPC 16:0), and lysophosphoglycerol (LPG 18:0) in liposomal formulations. The free fatty acids were separated using a C8 column whereas the LPCs and LPGs were separated using a C18 stationary phase upon direct injection without the need of lipid extraction process. Each analyte was quantified by Q-TOF mass spectrometry. This method was validated according to USP compendial procedures and has been applied to the analysis of four commercial liposomal pharmaceutical formulations. The limit of quantitation (LOQs) of FFA 16:0, FFA 18:0, LPC 16:0, LPC 18:0 and LPG 18:0 are 5ng/mL, 5ng/mL, 6.5ng/mL, 7.0ng/mL, 10ng/mL respectively. Compared to CAD (Charge Aerosol Detector) and ELSD (Evaporative Light Scattering Detector) detection methods in ppm levels, this ultra-performance liquid chromatography (UPLC)-Mass Spectroscopy (MS) method displays precise determination of lysophospholipids in the liposomal formulations with higher accuracy and sensitivity.

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